Mobile application discovery through mobile search

ABSTRACT

A social mobile network enables discovery of application programs running on the mobile devices. A search for partial or full matches to a group of alphanumeric characters is performed on the data stored on the first mobile communication device on which the search is initiated. The search is also performed on data made available to the user of the first mobile communication device by other users, where each user is associated with a different one of a multitude of mobile communication devices. The sharing of the data and the search for shared data is made via a server with which the mobile communication devices are in communication. The discovery of applications whose names or descriptions are partially or fully matched to the alphanumeric characters is made despite the fact that user was not looking for or aware of the existence of such application programs.

CROSS-REFERENCES TO RELATED APPLICATIONS

The present application claims benefit under 35 USC 119(e) of thefollowing:

-   U.S. application No. 61/076,324, filed Jun. 27, 2008, entitled    “Social Mobile Search”;-   U.S. application No. 61/095,072, filed Sep. 8, 2008, entitled    “Social Mobile Search”;-   U.S. application No. 61/076,349 filed Jun. 27, 2008, entitled    “Social Mobile Phonebook”;-   U.S. application No. 61/095,108 filed Sep. 8, 2008, entitled “Social    Mobile Phonebook”;-   U.S. application No. 61/076,373 filed Jun. 27, 2008, entitled    “Mobile Application Discovery Through Mobile Search”; and-   U.S. application No. 61/095,143 filed Sep. 8, 2008, entitled “Mobile    Application Discovery Through Mobile Search”; the contents of all of    which applications are incorporated herein by reference in their    entirety.

BACKGROUND OF THE INVENTION

The present invention relates to sharing of information by mobilecommunication devices having users within a social mobile network.

As information technology proliferates, the demand for effective andefficient retrieval of information continues to rise. To address thisdemand, a variety of search solutions have been developed to simplifythe process of information retrieval and/or to improve the relevance ofthe information that is retrieved. Today, information retrieval ispossible from virtually any computing device. Despite advances insearch-related technology, existing search solutions in the mobile spacefail to address characteristics unique to such devices and to the peoplewho use them.

Search solutions enable end-users as well as software programs to searchfor information in various sources including standalone databases,databases integrated with a specific software application, and contentservers containing a collection of documents and files. Search solutionsexist for almost every computing device including mainframes,mini-computers, PCs and mobile devices. Query languages, query tools andeven artificial intelligence systems have been developed to simplify theretrieval process. Various techniques have been employed to improve therelevance of the results that are returned. The widespread deploymentand use of computer networks, including the Internet, has led to searchsolutions, e.g., an internet search service, where keywords are enteredinto a browser and the resulting query is performed to compileinformation that is aggregated from multiple sources.

Conventional solutions typically enable information retrieval from oneof two types of information sources, namely those containing structureddata, and those containing unstructured data. Structured data usuallyrefers to information stored in databases. Search solutions forstructured data include (i) query languages like SQL, (ii) reportingtools that simplify or eliminate the need to use SQL, and (iii)database-specific search modules integrated as features within softwareapplications that manage those databases, such as those enabling searchfor names within a phone book. Unstructured data usually refers to textdocuments. Search solutions for unstructured data include (i) search fordocuments and files by name, such as that provided by file explorers,(ii) keyword search for words within the documents or the associatedmeta-data, such as enterprise and desktop search solutions, and (iii)search for content aggregated from the world-wide web, such as thatprovided by internet search engines.

Device search refers to search for information on a specific computingdevice using a search application or tool running on the device.Accordingly, the retrievable information is limited to the data which islocated on the device or on a medium attached to it, such as an externaldrive. The process of searching for data on a device is typicallydetermined by the end-user's knowledge of the information that he/sheseeks. For example, if the end-user desires to listen to a song titled“Jimmy Jazz”, stored on a device containing thousands of music files,the end-user may utilize a search feature within a music player softwareapplication to retrieve all songs that include the words “jimmy” and“jazz” in their song title.

Internet search refers to searching for information that exists on theWorld Wide Web and the internet in general. Typically, the end-user usesan Internet browser running on a computing device to access an Internetsearch engine. The search engine typically maintains its own informationsource which includes content aggregated from the World Wide Web. If theend-user searches, for example, for “jimmy jazz”, an Internet search mayreturn millions of hits, whereas a device search may typically returnonly a handful of results.

In general, the usefulness of an information retrieval system depends onthe relevance of the results that it finds. Many of the presentlyavailable information retrieval systems rank their results using arelevance measurement metric. In accordance with this scheme, thegreater the relevance of a result, the higher is its position in thecompiled list. In the case of an Internet search, there may be billionsof web pages or documents that match a particular keyword query.Internet search solutions may deem a page to be more relevant based on,for example, the popularity of the web page, an authoritative factorassigned to the content source, frequency of the keywords within thedocument, or the like. Similarly, device search solutions may calculatea relevance measurement by assigning more importance to keyword matcheswithin certain fields of data records. For example, a search for “JimmyJazz” in the device address book may rank records where the first namefield or last name field contains “Jimmy” or “Jazz” higher than recordswhere the company name field or job title field contains “Jimmy” or“Jazz”.

Mobile network operators, device manufacturers, operating systemproviders and independent companies operate online stores where users ofmobile devices can purchase applications and other content, such asmusic or videos. Such content providers face challenges in getting usersto search through the often vast inventory of available applications andassess the value of those applications.

BRIEF SUMMARY OF THE INVENTION

In accordance with one embodiment of the present invention, a socialmobile network enables application programs running on mobile devices tobe discovered. A search for partial or full matches to a group ofalphanumeric characters is performed on the data stored on a mobilecommunication device, associated with a user, and on which the search isinitiated. The search is also performed on data made available to theuser by other users each of whom is associated with a different mobilecommunication device and whose social mobile network includes the firstuser. The sharing of the data and the search for shared data is made viaa server with which the mobile communication devices are incommunication. The search for partial or full matches is also performedon application programs running on the multitude of mobile communicationdevices. Any application program partially or fully matching thealphanumeric characters of the search is identified and displayed to thefirst user.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of a number of components of a mobile clientapplication program running on a mobile communication device, inaccordance with one embodiment of the present invention.

FIG. 2 is a block diagram of a number of components of a serverapplication program with which the mobile communication device of FIG. 1is in communication with, in accordance with one embodiment of thepresent invention.

FIG. 3 shows a multitude of mobile communication devices incommunication with a server and enabling their corresponding users toshare data and search for shared data, in accordance with embodiments ofthe present invention.

FIG. 4 shows a mobile communication device accessing data shared by amember of his/her social mobile network via a server, in accordance withembodiments of the present invention.

FIG. 5 shows an on-line content provider supplying its contents forsharing and searching by a social mobile network via a server, inaccordance with one embodiment of the present invention.

FIG. 6 shows a number of components of a mobile communication device, inaccordance with one embodiment of the present invention.

FIG. 7 shows a number of components of a server, in accordance with oneembodiment of the present invention.

FIG. 8 shows a number of tables used by a mobile communication devicerunning the mobile communication application program of FIG. 1, inaccordance with one embodiment of the present invention.

FIGS. 9A and 9B show a number of tables used by a server running theserver application program of FIG. 2, in accordance with one embodimentof the present invention.

DETAILED DESCRIPTION OF THE INVENTION

In accordance with one embodiment of the present invention, a searchinitiated on a mobile communication device (hereinafter device)associated with a first user triggers the search to be carried out bothon the device as well as on a server containing information designatedas being available for sharing by all other users whose social mobilenetwork include the first user. Accordingly, each user is enabled toshare information with other users whose social mobile network includethe first user. The search result is listed in an order that is based onrelevance measurements unique to each user within the social mobilenetwork. To achieve this, in accordance with one embodiment of thepresent invention, interactions and behaviors that take place withineach social mobile networks are discovered and maintained to form a map.Using such maps, a relevance measurement is assigned to. For example, aquery for “jimmy” assigns a higher relevance measurement to a song named“Jimmy Jazz”, which has been listened to ten times in the last day, thana song named “Jimmy Jones” that has been listened to once in the lastday.

Security and privacy controls are used for all shared information.Furthermore, search and retrieval of information shared within a socialmobile network is performed even when the mobile devices in the networkare turned off or out of the network's coverage.

In accordance with one embodiment of the present invention, a user mayrequest information he/she believes is within his/her social mobilenetwork but has not yet been shared. The request is only sent to thosesocial mobile network users who have content that matches the requestedinformation. Some embodiments of the present invention provide a backupfunction for information in the mobile device via a server cloud thatenables a user who has lost a device, or purchased a new device, toreplicate data from the lost device to the new device.

When it comes to information retrieval, mobile computing devices presentunique needs that are unmet by existing search solutions. Users ofmobile computing and communication devices often have relationships anda history of interactions defined by the social mobile network.Internet-based social networks, such as Facebook, require that a userexplicitly create and maintain the social network, for example, byentering or uploading relationship information such as names and e-mailaddresses. Information defining a social mobile network is formed as aresult of using the mobile device when, for example, a call log entry ismade in response to a phone call, or an e-mail is sent to a colleague,or a new contact entry is made in an address book. A social mobilenetwork, which is unique for each individual user, often includes avariety of sub-networks, such as friends, family and colleagues.

Existing search solutions when performed in a mobile device fail to takeinto account how the user uses the mobile devices. The information beingsearched for by a user may exist on the mobile devices associated withother users whose social mobile network include the user. But suchinformation remains locked and hidden in the mobile devices of the otherusers and thus not searchable. For example, assume that a user namedJohn desires to place a phone call to Steve. John searches for Steve inhis phone book using a device search but is unable to find a match. Johnbelieves that a friend, Jane, most likely has Steve's phone number. Johnthen contacts Jane using e-mail, SMS or a phone call, and asks Jane forSteve's phone number, a process which is time consuming and inefficient.To remedy this problem, in accordance with one embodiment of the presentinvention, John can search for Steve and find the phone number in thecase where Jane has shared Steve's contact information with John.

A mobile user's relationship with members of his social mobile networkis often available, or can be extracted from a log maintained on his/hermobile device that contains a history of his/her interactions withothers in his/her social mobile network. The log includes suchinformation as the frequency with which members within the user's socialmobile network are communicated with, or the rate at which certainapplications or information associated with the social mobile networkare viewed on the mobile device.

The location where a mobile device is used may be associated with thekind of task the mobile device is being used for and the search beingperformed. This association is important when assigning relevance tosearch results. Location-based information thus plays an important rolein determining the relevance measurement for all types of searchresults, including device search. For example, assume John is in Detroitand performs a search for Paul. Accordingly, people named Paul who livein and around Detroit should receive a higher relevance measurement thanthose living farther away from Detroit.

FIG. 1 is a block diagram of a number of components (modules) of amobile client application program 100 running on a mobile communicationdevice (hereinafter alternatively referred to as Device) in accordancewith one embodiment of the present invention. Application program 100includes a user interface 112 (hereinafter alternatively referred to asUI), a search engine 108, a social search conduit 116, a share manager118, a settings manager 114, a change detectors 102, a content extractor122, a database 110, and a job queue 104.

User interface 112 enables a device user to create and executeinformation retrieval requests, to create and execute content sharingrequests, and to manage settings and preferences. Search Engine 112processes information retrieval requests from the UI 112, or from otherapplications on the device.

Social conduit 116 is used by search engine 112 to process informationretrieval requests for content that is stored in cloud 200. Socialconduit 116 processes such requests by communicating with cloud 200.Settings manager 114 is used by all components of application 100 tocreate, edit and retrieve settings and configuration information relatedto the components of application 100.

Change detector 102 monitors and detects changes in data stored on thedevice, including additions, updates and deletions. When such a changeis detected, it creates a notification and places that notification inchange queue 104. Change detector 102 may be configured to monitorchanges in device files and databases such as contacts, calendar, music,etc.

Change queue 104 is a database of all data changes detected on thedevice. It is used by other modules of application program 100. Changequeue 104 may be configured to notify the other modules of applicationprogram 100 when new entries are added to the change queue 104. Contentextractor 122 is used by modules of application program 100 to extractdata records, meta-data, or the like, from the mobile device.

Share Manager 118 processes content sharing requests from UI 112, fromthe change queue 104, or from other applications running on the device.Share manager 118 uses content extractor 122 to extract the entirerecords. Share manager 118 processes such requests by communicatingdirectly with cloud 200. Share manager also creates and maintains a mapof the user's social mobile network by inspecting the address book ofthe device and by observing behaviors and interactions within thatnetwork.

Database 110 contains non-settings related information and may be usedby all components of application program 100. Database 110 contains amap as shown in FIG. 8 of the user's social mobile network, informationabout content that is shared with other users in cloud 200, informationabout usage of device applications, and any other information needed bymodules of application program 100.

Initially, share manager 118 reads the address book (contact list) ofthe user to obtain information identifying his/her contacts and theircorresponding email addresses, phone numbers, etc., collectivelyreferred to herein as identification information (ID). This list ispresented to the user as his/her social mobile network. As content isshared with the user's social mobile network, a list of informationidentifying the shared content as well as the IDs of the members of thesocial mobile network the content is shared with is maintained in devicedatabase 110 as shown in FIG. 8 table 810.

FIG. 8, FIGS. 9A and 9B describe the data structures used by theapplication program 100 and server program 200 and collectively contain“maps” of the user's social mobile networks. All tables in FIG. 8 aremanaged by the share manager 118. Table 800, Table 802 and Table 804store application data related to the address book, music collection andapplications on the device. Table 806 is used to track the interactionsbetween the user and his/her social mobile network. Table 808 is used totrack the user's usage of content on the device. Table 810 is used tomaintain a list of the content shared with member's of the user's socialmobile network. The share manager 118 transmits its shared informationand tracking data to server 200. Content collection and indexing 202maintains the tables in FIGS. 9A and 9B. Table 900 contains a list ofall users of server 200. Table 902 contains aliases for those users,such as e-mail addresses or phone numbers, so that other users who wishto share with them, can do so by various identifying information. Table904 contains a list of all client devices running application program100 that are used by user's in Table 900. Table 906, Table 908 and Table910 represent a portion of shared content database 210, which is theinformation shared with other users. Table 912, Table 914 and Table 916contain all tracking data sent by various application program 100 s toserver 200. Social search engine 208 uses the data in the tables shownin FIGS. 9A and 9B to rank the order of search results.

FIG. 2 is a block diagram of a number of components of a social mobileapplication program 200 running on a server with which mobilecommunication devices are in communication with, in accordance with oneembodiment of the present invention. Application program 200 is shown asincluding a content collection and indexing component 202, an accountdatabase 204, an account manager 206, a social search engine 208, and ashared content database 210. Application program 100 enables the user ofthe mobile device on which it is running to search for informationshared by each of a multitude of other users that are within the socialmobile network of the user and who have a copy of application program100 running on his/her associated mobile device, as described in detailbelow.

Content collection and indexing 202 (hereinafter alternatively referredto as CCI) component receives content sharing requests from applicationprogram 100. CCI is adapted to store a copy of the shared content inshared content database 210 and to initiate an indexing of any newlyshared content. CCI 200 also manages requests to revoke, or terminateaccess to previously shared content. CCI 200 may also send notificationsto users of application program 100 when newly shared content isavailable.

Account manager 206 contains information about all users of cloud 200,as well as maps of what content is shared amongst those users. Accountmanager 206 stores this information in account database 204. Accountmanager also includes a settings managers that inhibits access to datathat has been shared by users. For example, the settings manger filtersout spam. Shared content database 210 contains platform independentcopies of all content that has been shared amongst users of applicationprogram 100. Index of shared content database 212 (hereinafteralternatively referred to as shared content index) is a searchable indexof all the information stored in shared content database 210. Socialsearch engine 208 receives information retrieval requests fromapplication program 100. It searches for the requested information inshared content index 212. For each item that it finds, it queries sharedcontent database 210 to extract the requested information and send theresults to application program 100.

FIG. 3 shows a server 300 running application program 200 with whicheach of a multitude of mobile communication devices 400A, 400B, 400C,400C, each running application program 100 is in communication with. Asdescribed below, applications programs 100 and 200 cooperatively enablethe users of mobile communication devices 400A, 400B, 400C, 400C toshare data and further search for shared data.

Application program 100 enables its associated device user to share oneor more content items with one or more members of the user's socialmobile network, as described in detail below. Assume that the user ofmobile device 400A requests to share information with the users ofmobile devices 400B, 400C and 400D. Using UI 112, the user of mobiledevice 400A creates a request to share information (also referred toherein as data or content). In response, UI 112 calls share manager 118to obtain a list of (i) all members of the user's social mobile network(assumed in this example to be the users of mobile devices 400B, 400Cand 400D), and groups of members if defined by the user (for example,friends, family, colleagues), (ii) all entries in a collection in theuser's device (e.g., all entries in a phonebook application), and/or(iii) selected entries within a collection (e.g., selected entries in aphonebook application). The UI 112 provides the information described insection (i), (ii) and (iii) in some order and enables the user of device400A to create a sharing request that includes the collected content aswell as the list of users of devices 400B, 400C and 400D, i.e., membersof the social mobile network with which the user of device 100 wants toshare information with.

The request to share is transmitted to share manager 118 which packagesthe request (e.g., includes the credentials of the user, such as theuser's username and password, the information to be shared, etc.), andtransmits the request to cloud 200. After receiving the request, cloud200 attempts to authenticate the requestor by calling account manager206. If the request is authenticated, cloud 200 passes the request tocontent collection & indexing component 202. Content collection &indexing component 202 stores the request in a queue and informs sharemanager 118 of the authenticated request. In response, share manager 118passes the authenticated request to UI 112. Thereafter, contentcollection & indexing component 202 stores the data contained in therequest for sharing in shared content database 210 and maintains a listof cloud users who may access the shared content (users of devices 400A,400B, and 400C, also referred to herein alternatively as targetrecipients) in the account manager 206. Next, content collection &indexing component 202 indexes the shared content in index of sharedcontent database 212 so that only target recipients may find and accessthe data during a search of content collection & indexing component 202.The user may also revoke/remove previously shared content and specifythat a previously shared content no longer be available for sharing.Application program 100 enables the user of the mobile device on whichit is running to search for information shared by each of a multitude ofother users whose social mobile network include the user and who has acopy of application program 100 running on his/her associated mobiledevice, and described in detail below.

FIG. 4 shows a device 400 accessing data via server 300, the data beingshared by another user whose social mobile network includes the users ofdevice 400, in accordance with embodiments of the present invention.Using UI 112, the user enters a search query. The UI 112 then passes thequery to search engine 108 which then determines if the search query isfor a social search, and if so, passes it to social search conduit 116.Social search conduit 116 packages the query, along with authenticationinformation obtained from settings manager 114, and transmits therequest to cloud 200. Cloud 200 receives the request, and authenticatesthe requester by calling account manager 206 (i.e., to verify that therequestor has been authorized to access the shared data). If the requestis authenticated, cloud 200 passes the request to search engine 208.Search engine 208 executes the requested query against the index ofshared content database 212 and extracts the shared data for the resultsfrom the shared content database 210. Search engine 208 packages up theresults and transmits them as a response to the original request fromdevice 100. Social search conduit 116 formats the results and passesthem to UI 112, which in turn presents them to the user for viewing. Theuser may select a result and preview it, in which case UI 112 willdisplay the full content of the result and present the user with otheroptions such as importing the content into his/her mobile Device.

In accordance with one embodiment, a user selects the name(s) of theindividuals the user wants to share the information with from the user'scontact list—stored on the user's mobile device—and presses a transmitkey, as described further below. Assume, for example, that Joe decidesto share a picture of Anna that has been stored in his mobile devicewith Simon. To achieve this, Joe searches for information about Anna inhis mobile device by entering the text “anna” in search window 112. Thesearch engine 108 searches for any indexed information that has the text“anna” included in its record name and displays the search results. Joeselects the desired record (that has the picture of Anna) from thedisplayed search result and is subsequently prompted to decide whetherto share the selected record. If Joe so chooses, his contact list isdisplayed to enable Joe to identify those contacts that Joe likes toshare the picture with. Assume that Joe selects Simon from his contactlist. After this selection, the record containing Anna's picturetogether with its associated index are transmitted to server cloud 200.The transmitted record is received by and stored in content collectionand indexing component 202 and thereafter stored in database 204 ofcloud server 200.

Once shared information is stored in database 204, a notification issent to any individual with whom the information is to be shared toinform him/her of the shared information. Continuing with the aboveexample, cloud server 200 notifies Simon that a record shared by Joe isavailable for his access and retrieval. Simon may be notified viae-mail, SMS message, or the like. Alternatively, the shared informationmay be placed in an Inbox folder which Simon can check at hisconvenience. Any other form of notification may also be used. The sharedinformation may also be downloaded by any individual designated to haveaccess to it.

In accordance with another embodiment, a user may first identify thenames of the individuals with whom the user desires to share informationusing the user's contact list. Thereafter, the user selects the contentsthat the user desires to share with. In all embodiments, the user isprovided with an option to share updates to any information (record)that the user has previously marked as a shared record. Furthermore, atany time, the user may cancel the sharing of a record.

In accordance with yet another embodiment of the present invention,sharing of certain types of information is performed automatically. Forexample, users may share their entire collection of music with everymember of their social mobile network. If a user does so, his/her entiremusic library becomes available for searching by everyone else who usessoftware 100. Accordingly, when a user performs a search for an item,e.g., wine, any item in the music collection shared in the mannerdescribed above, that has the text “wine” in its title will be shown inthe search result.

Mobile device software program 100 is also shown as including a behaviortracking component, disposed in component 110, adapted to track thelevel of interaction between the user and the various records that arestored on his/her device. For example, behavior tracking component,disposed in component 110, maintains a count of the number of times theuser places a call to or receives a call from individuals on his/hercontact list. Such tracking enables the social mobile networkingapplication 100 to assign relevance and ranking order to informationcompiled in response to a search. For example, a song that has beenlistened to by a user more frequently during the last 30 days receives ahigher ranking than another song which has not been listened to asfrequently during the same period. Such rankings are used whendetermining relevance and thus the order in which items found during asearch are listed.

A number of settings managed by settings manager component 114—providedon mobile device software program 100—may also be used to define theranking order of the items listed in a search result. For example,depending on the selected settings, contact names may receive a higherranking than calendar items when searched items are ordered and listed.For example, a search for “Smith” will assign a higher rank to any entryin the contact names that contains the text “Smith” than to any calendarentry that contains the same text. In another example, items that havepartial matches rank lower than those that have exact matches.

Some embodiments of the present invention provide an improve method fordiscovery of new applications. For example, devices 400A, 400B, 400C and400D may share content as well as application programs. Informationabout an application may include metadata, such as the name of theapplication, the author of the application, the creation date of theapplication, the size of the application, etc. Information shared aboutan application may also contain (and be continuously updated to include)behavioral information including, in part, how often the application isused, when it was first installed, when it was first used, the last dateof use, and the like. The shared information may be continuouslyupdated.

Referring to FIG. 4, assume a mobile communication device 400 runningapplication 100 (see FIG. 1), which is in communication with a server300 enters a search query. Server 300 is assumed to be runningapplication 200, as shown FIG. 2. The UI 112 passes the query to searchengine 108 which then determines if the search query is for a socialsearch, and if so, passes it to social search conduit 116. Social searchconduit 116 packages the query, along with authentication informationobtained from settings manager 114, and transmits the request to server300. Server 300 receives the request, and authenticates the requester bycalling account manager 206 thereby to ensure that the requester hasbeen authorized to access the shared data. If the request isauthenticated, server 300 passes the request to search engine 208.Search engine 208 executes the requested query against the index ofshared content database 212 and extracts the requested data from theshared content database 210. The search conducted by search engine 208may include application information. If so, the results will be modifiedto include the name (or some other identifier) of the device users whoshared that application information with the user of application program100. In addition, the results will be modified to include informationabout where to obtain the application (the online store) and adescription of that application from the same online store.

Furthermore, the search results can be ranked, such that applicationsthat are used more frequently or used by multiple members of the user'ssocial mobile network, appear higher in the results than those that areused less frequently. Moreover, the search results can be ranked suchthat any software application found as a result of the search appearshigher in the results than contacts, calendar items or the like.Information about the application such as the name, author, description,etc., may also be provided. In addition, the user who initiated thesearch is presented with options to purchase or download the applicationinto his/her mobile device.

For example, assume that a user named Jack plans to attend a wine andcheese event which he forgot to enter into his calendar. Assume thatJack knows that this information is available on his wife's calendarwhich is shared with Jack. To view this information, Jack enters thesearch text “wine”. Assume that Jack is within the social mobile networkof individuals who have an installed application named “wine by the bar”that is marked for sharing with Jack. Accordingly, in response to thissearch, not only the desired calendar item but also the application“wine by the bar” are listed in the search result. In one embodiment,this finding that the application “wine by the bar” was bought and usedby a number of individuals whose social mobile network include Jackcauses this application to be assigned a higher ranking thus resultingin the listing of this application before the desired calendar item. Byclicking on the entry showing the application “wine by the bar”, a briefdescription of the application is provided. If the user so chooses,he/she may visit the “App Store” and purchase the application software.Accordingly, in accordance with embodiments of the present invention,both the content as well as the actions/behavior of those whose socialmobile network include the user are used in ranking and listing of thesearch results initiated by that user.

In accordance with some embodiment of the present invention, informationfrom other social networking sites, such as Facebook, MySpace, and thelike, may also be shared and included in a search result when soselected by their users. Any such shared information when so selected bya user is also indexed by content collection and indexing 202.

In accordance with some embodiments, content provided by one or morethird party suppliers may also be shared and thus searched in responseto a search request. For example, assume that an online store 500 agreesto share its music library with anyone using mobile device software 100,as shown in FIG. 5. Accordingly, anytime a search is initiated by auser, the library of the online music store is also searched to providethe search results. Contents supplied by on-line store 500 areaccessible to server 300 running application program 200.

FIG. 6 shows various components of a mobile device running mobileapplication program 100 of FIG. 1. Each mobile device is shown asincluding at least one processor 602, which communicates with a numberof peripheral devices via a bus subsystem 604. These peripheral devicesmay include a storage subsystem 606, including, in part, a memorysubsystem 208 and a file storage subsystem 210, user interface inputdevice 612, user interface output device 614, and wireless communicationport 616. The input and output devices allow user interaction with dataprocessing system 602. Wireless communication port 616 provides awireless interface to other computer systems, networks, and storageresources.

User interface input devices 612 may include a keyboard, pointingdevices such as a mouse, touchpad, a touch screen incorporated into thedisplay, audio input devices such as voice recognition systems,microphones, and other types of input devices. In general, use of theterm input device is intended to include all possible types of devicesand ways to input information to processing device.

User interface output devices 614 may include a display subsystem, ornon-visual system such as audio output devices. The display subsystemmay be a liquid crystal display. In general, use of the term outputdevice is intended to include all possible types of devices and ways tooutput information from the processing device.

Storage subsystem 606 may be configured to store the basic programmingand data constructs that provide the functionality in accordance withembodiments of the present invention. For example, according to oneembodiment of the present invention, software modules implementing thefunctionality of the present invention may be stored in storagesubsystem 606. These software modules may be executed by processor(s)602. Storage subsystem 606 may also provide a repository for storingdata used in accordance with the present invention. Storage subsystem606 may include, for example, a memory subsystem 608.

Memory subsystem 608 may include a number of memories including a mainrandom access memory (RAM) 618 for storage of instructions and dataduring program execution and a read only memory (ROM) 620 in which fixedinstructions are stored.

Bus subsystem 604 provides a mechanism for enabling the variouscomponents and subsystems of the processing device to communicate witheach other. Although bus subsystem 204 is shown schematically as asingle bus, alternative embodiments of the bus subsystem may utilizemultiple busses.

FIG. 7 shows various components disposed in the server runningapplication program 200 of FIG. 2. Each server is shown as including atleast one processor 702, which communicates with a number of peripheraldevices via a bus subsystem 404. These peripheral devices may include astorage subsystem 706, including, in part, a memory subsystem 708 and afile storage subsystem 710, user interface input devices 712, userinterface output devices 714, and a network interface subsystem 716 thatmay include a wireless communication port. The input and output devicesallow user interaction with data processing system 702.

Network interface subsystem 716 provides an interface to other computersystems, networks, and storage resources 404. The networks may includethe Internet, a local area network (LAN), a wide area network (WAN), awireless network, an intranet, a private network, a public network, aswitched network, or any other suitable communication network. Networkinterface subsystem 716 serves as an interface for receiving data fromother sources and for transmitting data to other sources from theprocessing device. Embodiments of network interface subsystem 716include an Ethernet card, a modem (telephone, satellite, cable, ISDN,etc.), (asynchronous) digital subscriber line (DSL) units, and the like.

User interface input devices 712 may include a keyboard, pointingdevices such as a mouse, trackball, touchpad, or graphics tablet, ascanner, a barcode scanner, a touch screen incorporated into thedisplay, audio input devices such as voice recognition systems,microphones, and other types of input devices. In general, use of theterm input device is intended to include all possible types of devicesand ways to input information to processing device.

User interface output devices 714 may include a display subsystem, aprinter, a fax machine, or non-visual displays such as audio outputdevices. The display subsystem may be a cathode ray tube (CRT), aflat-panel device such as a liquid crystal display (LCD), or aprojection device. In general, use of the term output device is intendedto include all possible types of devices and ways to output informationfrom the processing device.

Storage subsystem 706 may be configured to store the basic programmingand data constructs that provide the functionality in accordance withembodiments of the present invention. For example, according to oneembodiment of the present invention, software modules implementing thefunctionality of the present invention may be stored in storagesubsystem 706. These software modules may be executed by processor(s)702. Storage subsystem 706 may also provide a repository for storingdata used in accordance with the present invention. Storage subsystem706 may include, for example, memory subsystem 708 and file/disk storagesubsystem 710.

Memory subsystem 708 may include a number of memories including a mainrandom access memory (RAM) 718 for storage of instructions and dataduring program execution and a read only memory (ROM) 720 in which fixedinstructions are stored. File storage subsystem 710 provides persistent(non-volatile) storage for program and data files, and may include ahard disk drive, a floppy disk drive along with associated removablemedia, a Compact Disk Read Only Memory (CD-ROM) drive, an optical drive,removable media cartridges, and other like storage media.

Bus subsystem 704 provides a mechanism for enabling the variouscomponents and subsystems of the processing device to communicate witheach other. Although bus subsystem 704 is shown schematically as asingle bus, alternative embodiments of the bus subsystem may utilizemultiple busses.

The processing device may be of varying types including a personalcomputer, a portable computer, a workstation, a network computer, amainframe, a kiosk, or any other data processing system. It isunderstood that the description of the processing device depicted inFIG. 7 is intended only as one example. Many other configurations havingmore or fewer components than the system shown in FIG. 7 are possible.

The above embodiments of the present invention are illustrative and notlimiting. Various alternatives and equivalents are possible. Otheradditions, subtractions or modifications are obvious in view of thepresent disclosure and are intended to fall within the scope of theappended claims.

What is claimed is:
 1. A method for performing a text search defined bya plurality of alphanumeric characters and initiated on a first mobilecommunication device associated with a first user, the methodcomprising: searching for partial or full matches to the alphanumericcharacters on data stored on the first mobile communication device;searching for partial or full matches to the alphanumeric characters ondata made available to the first user for sharing by a first pluralityof other private users who are within a social mobile network of thefirst user, said first plurality of other private users being associatedwith a plurality of mobile communication devices, the first mobilecommunication device and the plurality of mobile communication devicesbeing in communication with a server; searching for partial or fullmatches to the alphanumeric characters on application programs runningon the plurality of mobile communication devices; and ranking a firstpartially or fully matching application program name higher than asecond partially or fully matching application program name that hasbeen used less frequently than the first partially or fully matchingapplication program; and displaying matching search results.
 2. Themethod of claim 1 wherein the search for partial or full matches to thealphanumeric characters on application programs running on the pluralityof mobile communication devices are performed without authorization fromthe first plurality of other private users.
 3. The method of claim 1wherein partially or fully matching application program names having aplurality of users rank higher than partially or fully matchingapplication program names having a single user.
 4. The method of claim 1further comprising: enabling the first user to download a matchingapplication from the server.
 5. The method of claim 1 furthercomprising: redirecting the first user to an on-line store selling amatching application program; and enabling the first user to purchasethe matching application program.
 6. The method of claim 5 wherein saidon-line store is the store from which at least one of the firstplurality of other private users purchased a copy of the applicationprogram.
 7. The method of claim 1 further comprising: enabling the firstuser to download an application performing at least some functions of amatching application if the first mobile communication device is unableto run the first application.
 8. The method of claim 1 furthercomprising: identifying users having matching application programs. 9.The method of claim 1 further comprising: searching for partial or fullmatches to the alphanumeric characters on external sources ofinformation.
 10. A mobile communication device comprising: a firstmodule adapted to search for partial or full matches to a plurality ofalphanumeric characters on data stored on the first mobile communicationdevice; a second component adapted to: receive for partial or fullmatches to the plurality of alphanumeric characters on data madeavailable to the first user for sharing by a first plurality of otherprivate users who are within a social mobile network of the first user,said first plurality of other private users being associated with aplurality of mobile communication devices, the first mobilecommunication device and the plurality of mobile communication devicesbeing in communication with a server; receive for partial or fullmatches to the plurality of alphanumeric characters on applicationprograms running on the plurality of mobile communication devices; andrank a first partially or fully matching application program name higherthan a second partially or fully matching application program name thathas been used less frequently than the first partially or fully matchingapplication program; a monitor for displaying matching search results.11. The mobile communication device of claim 10 wherein the search forpartial or full matches to the alphanumeric characters on applicationprograms running on the plurality of mobile communication devices areperformed without authorization from the first plurality of otherprivate users.
 12. The mobile communication device of claim 10 whereinpartially or fully matching application program names having a pluralityof users rank higher than partially or fully matching applicationprogram names having a single user.
 13. The mobile communication deviceof claim 10 further comprising: a module adapted to enable the firstuser to download a matching application from the server.
 14. The mobilecommunication device of claim 10 further comprising: a module adapted toredirect the first user to an on-line store selling a matchingapplication program; and a module adapted to enable the first user topurchase the matching application program.
 15. The mobile communicationdevice of claim 14 wherein said on-line store is the store from which atleast one of the first plurality of others users purchased a copy of theapplication program.